Nucleus Accumbens

In vitro and in vivo comparison of two non-peptide tachykinin NK3 receptor antagonists: Improvements in efficacy achieved through enhanced brain penetration or altered pharmacological characteristics

Animal Behavior / Prefrontal Cortex / Nucleus Accumbens / Dopamine / Brain / Humans / Cerebral Cortex / Animals / Male / Central Nervous System / Peptides / Habenula / Neurons / Haloperidol / European / Microdialysis / Molecular cloning / Rats / Neuronal Activity / Guinea Pig / Substance P / Quinolines / Extracellular Space / Medial Prefrontal Cortex / Clinical evaluation / Humans / Cerebral Cortex / Animals / Male / Central Nervous System / Peptides / Habenula / Neurons / Haloperidol / European / Microdialysis / Molecular cloning / Rats / Neuronal Activity / Guinea Pig / Substance P / Quinolines / Extracellular Space / Medial Prefrontal Cortex / Clinical evaluation

Medial prefrontal transection enhances social interaction

Cognitive Science / Social Interaction / Prefrontal Cortex / Nucleus Accumbens / Dopamine / Social behavior / Glutamate / Brain / Animals / Male / Amphetamine / Animal Model / Interpersonal Relations / Microdialysis / Rats / Time Factors / Wistar Rats / Social Behavior / Diazepam / Neurosciences / Glutamic Acid / Dextroamphetamine / Gamma-Aminobutyric Acid / Medial Prefrontal Cortex / Motor activity / Glutamate release / Social behavior / Glutamate / Brain / Animals / Male / Amphetamine / Animal Model / Interpersonal Relations / Microdialysis / Rats / Time Factors / Wistar Rats / Social Behavior / Diazepam / Neurosciences / Glutamic Acid / Dextroamphetamine / Gamma-Aminobutyric Acid / Medial Prefrontal Cortex / Motor activity / Glutamate release

Efficient temporal decomposition of local field potentials

Decomposition / Independent Component Analysis / Neurophysiology / Signal Analysis / Nucleus Accumbens / Time-Frequency Analysis / Computer Model / Time Frequency Analysis / Single Cell / Local Field Potential / Time-Frequency Analysis / Computer Model / Time Frequency Analysis / Single Cell / Local Field Potential

In vitro and in vivo comparison of two non-peptide tachykinin NK3 receptor antagonists: Improvements in efficacy achieved through enhanced brain penetration or altered pharmacological characteristics

Animal Behavior / Neurotransmission / Pharmacokinetics / Comparative Study / Prefrontal Cortex / Nucleus Accumbens / Dopamine / In Vitro / Brain / Humans / Cerebral Cortex / Animals / Male / Central Nervous System / Peptides / Habenula / Neurons / Efficiency / Haloperidol / European / Microdialysis / Molecular cloning / In Vivo / Rats / Neuronal Activity / Guinea Pig / Substance P / Quinolines / Extracellular Space / Pharmacokinetic / Medial Prefrontal Cortex / Clinical evaluation / Inositol Phosphates / Nucleus Accumbens / Dopamine / In Vitro / Brain / Humans / Cerebral Cortex / Animals / Male / Central Nervous System / Peptides / Habenula / Neurons / Efficiency / Haloperidol / European / Microdialysis / Molecular cloning / In Vivo / Rats / Neuronal Activity / Guinea Pig / Substance P / Quinolines / Extracellular Space / Pharmacokinetic / Medial Prefrontal Cortex / Clinical evaluation / Inositol Phosphates

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